CN110920499B - Movable cup holder assembly - Google Patents

Abstract

The invention provides a movable cup holder assembly, which belongs to the technical field of cup holders for vehicles and comprises: a holder for holding a cup; the rotating shaft penetrates through the bracket, and the bracket can turn around the rotating shaft; the linkage assembly is in linkage connection with the bracket; the support component is connected with the linkage component and drives the support to rotate through the linkage component and keep the support in an opened state; the folding assembly is connected with the linkage assembly, and the folding assembly drives the support to rotate and keep the support in a folded state through the linkage assembly. The invention has the beneficial effects that: this glass stand subassembly can set up on automobile-used cup stand to can turn up or fold according to actual need, whole process smoothness very is convenient.

Description

Movable cup holder assembly

Technical Field

The invention belongs to the technical field of cup holders for vehicles, and relates to a movable cup holder assembly.

Background

As automobiles are gradually owned by common consumers, the functional requirements of the consumers for the automobiles are also continuously increasing. In addition to some basic requirements, such as automobile familiarization, bioactivation, convenience, practicality, economic safety and human-oriented, as an extension of personal space, automobiles need to provide a separate space for consumers to store some personal articles, so as to be convenient to find and use, thereby meeting the requirements and use of personal space of consumers. For convenient drinking, the inside of the vehicle is basically provided with a cup holder specially used for placing a water cup.

The existing cup holders are fixed in practice and cannot be folded, so that the existing cup holders occupy space, and if no cup is placed on the cup holder, the existing cup holder assemblies are wasted in the space in a vehicle.

However, the existing cup holder assembly capable of being movably turned and folded is relatively simple and crude in structure, is relatively troublesome to turn or fold, is not smooth to operate and is easy to block.

Disclosure of Invention

The invention aims to solve the problems in the prior art and provides a movable cup holder assembly.

The purpose of the invention can be realized by the following technical scheme: a movable cup holder assembly, comprising:

a holder for holding a cup;

the rotating shaft penetrates through the bracket, and the bracket can turn around the rotating shaft;

the linkage assembly is in linkage connection with the bracket;

the support component is connected with the linkage component and drives the support to rotate through the linkage component and keep the support in an opened state;

the folding assembly is connected with the linkage assembly, and the folding assembly drives the support to rotate and keep the support in a folded state through the linkage assembly.

Preferably, the number of the brackets is two, the two brackets are respectively positioned at two sides of the cup, the brackets are provided with arc-shaped lower edges, and when the two brackets are turned over, the cup is clamped through the arc-shaped lower edges.

Preferably, a driving shaft is arranged at the side end of the bracket and connected with the linkage assembly, the end part of the rotating shaft penetrates through the driving shaft, and the linkage assembly drives the driving shaft to rotate so as to turn up or fold the bracket.

Preferably, the linkage assembly comprises a first driving block, a second driving block and two assembly shafts, the assembly shafts are fixedly arranged, the first driving block and the second driving block are respectively rotatably arranged on the two assembly shafts, and the first driving block and the second driving block are respectively in linkage connection with the two driving shafts.

Preferably, the first driving block and the second driving block are both provided with first arc-shaped racks, the end portion of the driving shaft is provided with a driven gear, the first arc-shaped racks are meshed with the driven gear, and when the first driving block and the second driving block rotate, the two supports are driven to be opened.

Preferably, the first driving block and the second driving block are both provided with second arc-shaped racks, and the two second arc-shaped racks are meshed, so that the first driving block and the second driving block are in linkage connection and keep synchronous rotation.

Preferably, the folding assembly is an elastic frame, the elastic frame comprises a base and two pushing arms formed by bending two sides of the base, the two pushing arms are respectively connected with the first driving block and the second driving block in an abutting mode, when the support is unfolded, the first driving block and the second driving block unfold the two pushing arms, and the two pushing arms apply pushing force to the first driving block and the second driving block.

Preferably, first drive block and second drive block are fan-shaped structure and have last arc limit, lower arc limit and side, first arc rack sets up go up the arc edge, second arc rack sets up arc edge down, the conflict of push arm is connected on the side.

Preferably, the base is provided with two limiting parts respectively corresponding to the first driving block and the second driving block, the lower arc-shaped edge is provided with a first limiting groove and a second limiting groove, when the support is folded, the limiting parts are connected with the first limiting groove, when the support is turned over, the base deforms, so that the first limiting groove is separated from the limiting parts, and the second limiting groove is connected with the limiting parts.

Preferably, the supporting component is a torsion spring, a connecting hole is formed in the first driving block, one end of the torsion spring is fixedly arranged, the other end of the torsion spring penetrates through the connecting hole, and the torsion spring is used for driving the first driving block to rotate so that the support is turned over.

Compared with the prior art, the invention has the beneficial effects that:

1. this glass stand subassembly can set up on automobile-used cup stand to can turn up or fold according to actual need, whole process smoothness very is convenient.

2. Because two supports are when overturning to the level, interval between them is the minimum, and when two supports were the slope, the relative grow of interval between them, the size of the cup that can grasp is also big more, and because the support can overturn and have upward pivoted effort through supporting component, even so the support is pressed down by the cup, also can bounce to supporting component makes the support initiative press from both sides tight cup, just so can improve the stability of cup under the prerequisite of the cup that adapts to different sizes.

3. When the support covers and is in a furled state, the torsional spring is in a compressed state, so the torsional spring can drive the first driving block to rotate through elasticity, the first driving block drives the second driving block to rotate, and meanwhile, the first driving block and the second driving block rotate, so the support can be driven to be turned over through the driving shaft.

Drawings

Fig. 1 is a schematic view of the movable cup holder assembly of the present invention.

Fig. 2 is a schematic structural view of the linkage assembly and the elastic frame according to the present invention.

FIG. 3 is a schematic view of the connection relationship between the linkage assembly and the elastic frame according to the present invention.

FIG. 4 is a schematic structural diagram of the linkage assembly of the present invention.

Fig. 5 is a schematic structural view of the linkage assembly and the elastic frame when the cup holder of the present invention is opened.

In the figure, 100, the stent; 110. an arcuate lower edge; 120. a drive shaft; 130. a driven gear; 200. a rotating shaft; 310. a first driving block; 311. connecting holes; 320. a second driving block; 330. assembling a shaft; 340. a first arc-shaped rack; 350. a second arc-shaped rack; 360. an arc-shaped edge is arranged; 370. a lower arc-shaped edge; 371. a first limit groove; 372. a second limit groove; 380. a side edge; 400. an elastic frame; 410. a base; 420. a push arm; 430. a limiting part; 500. a torsion spring.

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.

As shown in fig. 1, 2, 3, 4, 5, a movable cup holder assembly comprising: the holder 100, the rotation shaft 200, the linkage assembly, the support assembly, and the folding assembly are applied to a cup holder for a vehicle, and may form a folding structure, so that the cup holder can be used as a storage box when folded, and can be used as a cup holder when folded.

A holder 100 for holding a cup; the holder 100 is actually a component that can be unfolded or stored, and the principle of the holder 100 for holding the cup is to support the outer wall of the cup and restrain the cup when the cup is unfolded.

A rotating shaft 200 penetrating the bracket 100, wherein the bracket 100 can be turned around the rotating shaft 200; preferably, the rotation shaft 200 passes through the upper end of the stand 100, thereby enabling the lower end of the stand 100 to be turned up and the entire stand 100 to be turned between vertical and horizontal.

That is, the holder 100 is actually rotatable 90 degrees about the axis of rotation 200, and the rotatable holder 100 structure forms a cup holder that can accommodate and retain cups of different sizes.

A linkage assembly which is linked with the bracket 100; preferably, the linkage assembly is actually a component that directly drives the bracket 100 to fold or unfold, and can directly drive the bracket 100 to move.

The support component is connected with the linkage component, and the support component drives the bracket 100 to rotate through the linkage component and keeps the bracket in an opened state; preferably, the supporting member can open the supporting frame 100 through the linkage member and keep the supporting frame in the opened state, since the supporting frame 100 itself can rotate through the rotating shaft 200, but the supporting frame 100 itself cannot keep the opened state without an external force, and after the supporting frame 100 is set, the linkage member can provide an opening force to the supporting frame 100.

The folding assembly is connected with the linkage assembly, the folding assembly drives the support 100 to rotate and keep the support in a folding state through the linkage assembly, and preferably, the folding assembly enables the support 100 to be turned downwards through the linkage assembly and keeps the support 100 in a folding state.

Through foretell linkage assembly, can make supporting component and folding assembly exert the effort that makes its rotation to support 100 to play the locking effect through supporting component and folding assembly, the supporting component can lock support 100 in the state of opening, and folding assembly can lock support 100 in the fold condition of vertical decurrent.

During operation, the support 100 can be kept in a corresponding state only by opening or closing the support, the operation is very convenient, the structure is ingenious, and the support 100 can be very fluent in the process of being opened or closed due to the fact that the support assembly and the folding assembly can apply acting force to the support 100.

As shown in fig. 1, 2, 4 and 5, on the basis of the above embodiment, the number of the brackets 100 is two, and the two brackets 100 are respectively located at both sides of the cup, and the brackets 100 are provided with arc-shaped lower edges 110, and when the two brackets 100 are turned up, the cup is clamped by the arc-shaped lower edges 110.

Preferably, the two supports 100 are arranged face to face and at a distance such that a cup can be placed between the two supports 100, so that the two supports 100 can clamp the cup after being unfolded.

And, the structure of two supports 100, the cup that can better adaptation different sizes, because support 100 is upwards turned up from vertical state, can overturn to the horizontality finally, put into the cup this moment, if the cup of smaller size, just in time can block between two support 100 that turn up, if the cup of great size, support 100 can be oppressed by the cup to rotate certain angle downwards, make support 100 be the clip cup of slope form finally.

It should be noted here that, when the two holders 100 are turned over to the horizontal position, the distance between the two holders is the smallest, and when the two holders 100 are inclined, the distance between the two holders becomes relatively larger, and the size of the cup that can be held is larger, and since the holders 100 can be turned over and have an upward rotating force through the support assembly, even if the holders 100 are pressed down by the cup, the holders can be bounced, and the support assembly enables the holders 100 to actively clamp the cup, so that the stability of the cup can be improved on the premise of adapting to cups of different sizes.

In addition, the upper end of the support 100 is connected with the rotating shaft 200, the lower edge is the arc-shaped lower edge 110, and the arc-shaped lower edge 110 is of an arc-shaped structure, so that the support can be matched with the outer surface of a cup, specifically, the arc-shaped lower edge 110 can be abutted against the outer surface of the cup, so that the cup can be clamped or limited in a replacement manner, and the upper end of the support 100 is provided with a shifting block which can be convenient for a user to pull up the support 100.

As shown in fig. 1, 2, 3 and 5, on the basis of the above embodiment, a driving shaft 120 is disposed at a side end of the support 100, the driving shaft 120 is connected to the linkage assembly, an end of the rotating shaft 200 passes through the driving shaft 120, and the linkage assembly drives the driving shaft 120 to rotate, so that the support 100 is turned up or folded.

Preferably, a driving shaft 120 is provided at one side of the support 100, and the driving shaft 120 is connected to the linkage assembly, so that when the linkage assembly moves, the driving shaft 120 is rotated, thereby rotating the support 100.

Preferably, the rotating shaft 200 passes through the bracket 100, and one end of the rotating shaft 200 passes through the axial center of the driving shaft 120, so that the bracket 100 can rotate around the rotating shaft 200, and the driving shaft 120 can drive the bracket 100 to rotate.

As shown in fig. 1, 2, 3 and 5, in addition to the above embodiment, the linkage assembly includes a first driving block 310, a second driving block 320 and two assembly shafts 330, the assembly shafts 330 are fixedly disposed, the first driving block 310 and the second driving block 320 are respectively rotatably disposed on the two assembly shafts 330, and the first driving block 310 and the second driving block 320 are respectively linked with the two driving shafts 120.

Preferably, the linkage assembly includes a first driving block 310 and a second driving block 320, wherein the first driving block 310 and the second driving block 320 have the same shape and structure and are respectively connected to the two assembly shafts 330, so that the first driving block 310 and the second driving block 320 can rotate around the assembly shafts 330, and the first driving block 310 and the second driving block 320 can drive the driving shafts 120 of the two brackets 100 to rotate when rotating clockwise or counterclockwise, so as to fold or unfold the brackets 100.

As shown in fig. 1, 2 and 3, in addition to the above embodiment, each of the first driving block 310 and the second driving block 320 is provided with a first arc-shaped rack 340, the end of the driving shaft 120 is provided with a driven gear 130, the first arc-shaped rack 340 is engaged with the driven gear 130, and when the first driving block 310 and the second driving block 320 rotate, the two brackets 100 are driven to open.

All be provided with first arc rack 340 on first drive block 310 and second drive block 320, first drive block 310 and second drive block 320 can drive driven gear 130 through first arc rack 340 and rotate when rotating to make drive shaft 120 clockwise rotation or anticlockwise rotation, and then open support 100, and this kind of first arc rack 340 and driven gear 130 meshing's structure, the drive support 100 that can be ingenious is opened or is covered.

As shown in fig. 1, 2, 3 and 5, in addition to the above embodiment, the first driving block 310 and the second driving block 320 are provided with second arc-shaped racks 350, and the two second arc-shaped racks 350 are engaged, so that the first driving block 310 and the second driving block 320 are linked and rotate synchronously.

Preferably, when the two supports 100 are opened, the two supports 100 need to be opened synchronously, and the synchronous movement structure is realized through the second arc-shaped racks 350, and the two second arc-shaped racks 350 are meshed, so that the first driving block 310 and the second driving block 320 can be linked together, and in an actual structure, only one driving block is required to move, and the two supports 100 can be driven to move step by step.

It should be noted that, due to the synchronous rotation structure, the two supports 100 can keep synchronous movement, that is, the two supports 100 can be unfolded or folded simultaneously, or the two supports 100 can keep the same unfolding angle, so that when the supports 100 are unfolded or folded, all the supports 100 can be unfolded or folded only by pulling or pressing one of the supports 100, which is very convenient, and the whole process is more smooth.

As shown in fig. 1, 2, 4, and 5, based on the above embodiment, the folding assembly is an elastic frame 400, the elastic frame 400 includes a base 410 and two pushing arms 420 formed by bending two sides of the base 410, the two pushing arms 420 are respectively connected to the first driving block 310 and the second driving block 320 in an interference manner, when the bracket 100 is folded, the two pushing arms 420 are separated by the first driving block 310 and the second driving block 320, and the two pushing arms 420 apply pushing force to the first driving block 310 and the second driving block 320.

Preferably, the folding assembly is configured to pivot the stand 100 downward and lock the stand 100 to maintain the stand 100 in the folded position, and the stand 100 cannot be pivoted if the force applied by the folding assembly cannot be overcome.

Preferably, the folding assembly includes an elastic frame 400, the elastic frame 400 is actually a metal strip with elasticity, wherein the base 410 is a strip-shaped structure horizontally disposed, the pushing arms 420 are actually structures with two ends of the metal strip bent upwards, the two pushing arms 420 respectively abut against the outer side wall of the first driving block 310 and the outer side wall of the second driving block 320, so that the two pushing arms 420 can push the first driving block 310 and the second driving block 320, so that the first driving block 310 and the second driving block 320 rotate against the torsion force of the torsion spring 500, and finally the bracket 100 is turned downwards.

As shown in fig. 1, 2, 4 and 5, on the basis of the above embodiment, the first driving block 310 and the second driving block 320 are both fan-shaped and have an upper arc-shaped edge 360, a lower arc-shaped edge 370 and a side edge 380, the first arc-shaped rack 340 is disposed on the upper arc-shaped edge 360, the second arc-shaped rack 350 is disposed on the lower arc-shaped edge 370, and the pushing arm 420 is connected to the side edge 380 in an interference manner.

Preferably, the first driving block 310 and the second driving block 320 have the same shape, are both fan-shaped mechanisms, or are drop-shaped, and are similar to cams, and the upper ends of the first driving block 310 and the second driving block 320 are upper arc-shaped edges 360, the lower ends are lower arc-shaped edges 370, the outer sides have side edges 380, and circular holes connected with the assembly shaft 330 are arranged on the first driving block 310 and the second driving block 320, and are close to the upper arc-shaped edges 360.

The first arc-shaped rack 340 is located on the upper arc-shaped edge 360, the second arc-shaped rack 350 is located on the side of the lower arc-shaped edge 370, that is, the upper ends of the first and second driving blocks 320 are engaged with the driven gear 130, and the lower ends of the first and second driving blocks are engaged with each other, and the driving blocks are fan-shaped structures, once the pushing arm 420 applies elastic force to the side 380 thereof, the driving blocks can be easily pushed to rotate, and the end of the pushing arm 420 is also provided with an arc-shaped bend, so that the side 380 can be better pushed.

As shown in fig. 1, 2, 4 and 5, in addition to the above embodiment, the base 410 is provided with two limiting portions 430 respectively corresponding to the first driving block 310 and the second driving block 320, the lower arc-shaped edge 370 is provided with a first limiting groove 371 and a second limiting groove 372, the limiting portions 430 are connected with the first limiting groove 371 when the rack 100 is folded, and the base 410 is deformed when the rack 100 is unfolded, so that the first limiting groove 371 is separated from the limiting portions 430, and the second limiting groove 372 is connected with the limiting portions 430.

Preferably, the base 410 is an elongated elastic structure, and has a limiting portion 430, the limiting portion 430 is an arc-shaped protruding structure, and the lower arc-shaped edge 370 has a first limiting groove 371 and a second limiting groove 372, the shape of the first limiting groove just matches with the limiting portion 430 and is an arc-shaped groove structure, and when the limiting portion 430 is embedded in the first limiting groove, the bracket 100 is folded because the limiting portion 430 is completely embedded in the first limiting groove, and the first driving block 310 and the second driving block 320 cannot rotate, so that the bracket 100 can be fixed in the folded state.

The second limiting groove is of an arc-shaped concave structure, when the limiting portion 430 is located in the second limiting groove, the first driving block 310 and the second driving block 320 can rotate within a certain angle range, so that the first driving block 310 and the second driving block 320 are not completely locked and can move within a small range, when the support 100 is turned over, the support 100 can rotate within a certain angle range, namely, two ends of the second limiting groove can be abutted against the limiting portion 430 to be connected, so that the first driving block 310 and the second driving block 320 can rotate within a certain range, and when the support 100 is turned over, the support can also be turned over downwards by a certain angle to adapt to cups of different sizes.

Preferably, the base 410 has elasticity, that is, once the acting force applied to the first driving block 310 and the second driving block 320 can make the base 410 elastically deform, the first limiting groove and the second limiting groove can be separated from the limiting portion 430, in the specific working process, the user pulls the shifting block on the bracket 100, so as to apply the acting force to the first driving block 310 and the second driving block 320 through the bracket 100, the first limiting groove makes the base 410 deform, the first limiting groove on the first driving block 310 and the second driving block 320 is separated from the limiting portion 430, at this time, the torsion spring 500 drives the first driving block 310 and the second driving block 320 to continue to rotate, so as to drive the bracket 100 to turn up, and when the user presses down the bracket 100, the bracket 100 applies a reverse acting force to the first driving block 310 and the second driving block 320, at this time, the second limiting groove makes the base 410 deform, so that the second limiting groove is separated from the limiting portion 430, the pushing arm 420 pushes the first driving block 310 and the second driving block 320 to rotate, and the first position-limiting groove is connected to the position-limiting portion 430 again.

As shown in fig. 1, 2, 3, 4, and 5, on the basis of the above embodiment, the supporting component is a torsion spring 500, the first driving block 310 is provided with a connecting hole 311, one end of the torsion spring 500 is fixedly disposed, and the other end of the torsion spring passes through the connecting hole 311, and the torsion spring 500 is used for driving the first driving block 310 to rotate, so that the bracket 100 is opened.

Preferably, the support assembly serves three functions, the first function is to drive the support 100 to open, the second function is to keep the support 100 in the open state, and the third function is to provide a certain clamping force to the support 100 to clamp the cup.

Preferably, the support assembly includes a torsion spring 500, the torsion spring 500 being coupled with the first driving block 310; when the bracket 100 is covered and in the folded state, the torsion spring 500 is in a compressed state, so the torsion spring 500 can drive the first driving block 310 to rotate through the elastic force, so that the first driving block 310 drives the second driving block 320 to rotate, and meanwhile, the first driving block 310 and the second driving block 320 rotate, so the bracket 100 can be driven to be unfolded through the driving shaft 120.

Preferably, in an actual working process, when the bracket 100 is in a folded state, the torsion spring 500 is compressed, the push arm 420 is pressed against the first driving block 310 and the second driving block 320, the torsion force of the torsion spring 500 keeps balance with the elastic force of the push arm 420, and the first driving block 310 and the second driving block 320 are locked by the base 410, when a user pulls the bracket 100 upwards, the first driving block 310 and the second driving block 320 are separated from the base 410, and at this time, the torsion spring 500 drives the first driving block 310 to rotate, so that the two brackets 100 are folded, and at this time, the first driving block 310 and the second driving block 320 push the push arm 420.

When the bracket 100 is turned down, the bracket 100 drives the first driving block 310 and the second driving block 320 to rotate reversely, the two pushing arms 420 push the first driving block 310 and the second driving block 320 to rotate, at this time, the first driving block 310 and the second driving block 320 overcome the torsion of the torsion spring 500, and the torsion spring 500 is compressed, at this time, the pushing force generated by the pushing arms 420 counteracts a part of the spring, and the first driving block 310 and the second driving block 320 are locked on the base 410 again.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the spirit or ambit of the invention as defined in the appended claims.

Claims (7)

1. A movable cup holder assembly, comprising:

the cup holder comprises two supports, wherein the two supports are used for clamping a cup and are respectively positioned on two sides of the cup, the supports are provided with arc-shaped lower edges, and the cup is clamped through the arc-shaped lower edges when the two supports are turned over;

the rotating shaft penetrates through the bracket, and the bracket can turn around the rotating shaft;

the linkage assembly is in linkage connection with the bracket;

the support component is connected with the linkage component and drives the support to rotate through the linkage component and keep the support in an opened state;

the folding assembly is connected with the linkage assembly and drives the support to rotate through the linkage assembly and keep the support in a folded state;

the side of support is provided with the drive shaft, the drive shaft with the linkage subassembly is connected, the tip of pivot passes the drive shaft, the linkage subassembly drives thereby the drive shaft rotates and makes the support is turned up or is folding, the linkage subassembly includes first drive block, second drive block and two assembly axles, the assembly axle is fixed the setting, first drive block and the rotatable setting respectively of second drive block is two on the assembly axle, first drive block with the second drive block respectively with two the drive shaft linkage is connected.

2. The movable cup holder assembly of claim 1, wherein: first drive block with all be provided with first arc rack on the second drive block, the tip of drive shaft is provided with driven gear, first arc rack with driven gear meshes, works as first drive block with drive two when the second drive block rotates the support is turned over.

3. The movable cup holder assembly of claim 2, wherein: the first driving block and the second driving block are respectively provided with a second arc-shaped rack, and the two second arc-shaped racks are meshed, so that the first driving block and the second driving block are in linkage connection and keep synchronous rotation.

4. The movable cup holder assembly of claim 3, wherein: folding subassembly is the elastic frame, the elastic frame include the base and two push arms that form after the both sides of base are buckled, two push arms respectively with first drive block and the conflict of second drive block is connected, works as when the support is turned over first drive block and second drive block struts two push arms, and two push arms to first drive block and the thrust is applyed to the second drive block.

5. The movable cup holder assembly of claim 4, wherein: first drive block and second drive block are fan-shaped structure and have arc limit, lower arc limit and side, first arc rack sets up go up the arc edge, second arc rack sets up arc edge down, the conflict of push arm is connected on the side.

6. The movable cup holder assembly of claim 5, wherein: be provided with two on the base and correspond respectively first drive block and the spacing portion of second drive block, the arc limit is provided with first spacing recess and the spacing recess of second down, works as when the support is folding spacing portion with first spacing groove connection works as when the support is turned over the base warp, thereby makes first spacing recess with spacing portion separation, and the spacing recess of second with spacing portion is connected.

7. The movable cup holder assembly of claim 3, wherein: the supporting component is a torsion spring, a connecting hole is formed in the first driving block, one end of the torsion spring is fixedly arranged, the other end of the torsion spring penetrates through the connecting hole, and the torsion spring is used for driving the first driving block to rotate so that the support is turned over.

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